Spin-flavor entanglement in b D and weak phase extraction

Abstract

We identify a new spin-flavor entanglement structure in b D decays, formed by the correlation between the spin and the D flavor states (D=D0, D0,D1,D2). The entanglement information is encoded in the decay rates and Lee-Yang parameters of the four neutral-D modes. We then show that the same spin-flavor structure provides a new method to determine the weak phase γ, a key angle of the Cabibbo-Kobayashi-Maskawa unitarity triangle. We find that the experimental uncertainty scales as σγ 1/ C, where C is the Wootters concurrence, thereby quantitatively relating the precision of the weak-phase extraction to the amount of spin-flavor entanglement.